KR20110027876A - Heat treatment method for aluminium forging - Google Patents

Abstract

PURPOSE: A heat treatment method in aluminum hot forging is provided to reduce the time for temperature rising of a forged product by heating the forged product to the solution treatment temperature after hot forging without air-cooling. CONSTITUTION: A heat treatment method in aluminum hot forging is as follows. A heated material is forged and trimmed and a forged product is produced(S12,S13). The forged product with latent heat is heated to solution treatment temperature(S15). The heated forged product is subject to solution treatment(S16). The treated forged product is water-cooled and aged(S18).

Description

Heat treatment method for aluminum forging

The present invention relates to a heat treatment method of aluminum hot forging, and more particularly to a heat treatment method of aluminum hot forging for reducing the energy used in the hot forging process.

In general, the technique of heating aluminum to forge a specific product shape by forging includes processes of heating, hot forging, trimming, air cooling, solution treatment, water cooling, and aging treatment, as is known.

In particular, the solution treatment of aluminum alloy is a necessary step in the precipitation hardening alloy. Precipitation hardening is a method of forming a precipitate inside a crystal to improve the physical properties of the material.

In order to form a precipitate inside the aluminum alloy, the material is first heated to a uniform solid solution, and then quenched to form a unstable single phase in which a supersaturated solute atom is employed. This treatment is called solution treatment. Heating the unstable supersaturated phase to an appropriate temperature starts precipitation and returns to a stable state.

Precipitation is a phenomenon in which the solute atoms infiltrated into the mother phase due to the change of solubility by temperature come out of the crystal of the mother phase and become different from the crystal structure of the mother phase. Since precipitation requires time for atom diffusion, precipitation hardening is also called age hardening, and hardening occurs as precipitation progresses with time.

As such, the precipitation hardening-type aluminum alloy requires a solution treatment, which will be described in detail with reference to the accompanying drawings.

1 is a process flowchart of a conventional heat treatment method of aluminum hot forging, Figure 2 is a process graph describing the temperature and time for each process step of FIG.

1 and 2, respectively, in the conventional heat treatment method of aluminum hot forging, the material is first heated to 500 to 550 ° C. as in step S11, and hot forging is performed as in steps S12 and S13, and then a trimming process is performed. Proceed to manufacture the forging.

At this time, the total time for performing hot forging and trimming is about 30 seconds, and the hot forging and trimmed material are in a high heated state.

Next, in step S14, the hot forging and trimmed forgings are subjected to an air cooling and loading process for cooling in air.

Next, in step S16, the forged product is cooled again to prepare the solution for solution treatment. At this time, the final target temperature of the elevated temperature is 530 ° C, which is the solution treatment temperature, and the forged product is heated for 1.5 to 2.5 hours to raise the temperature to reach the final target temperature.

At this time, if the temperature rises more urgently, the forging is deteriorated, so it has to proceed for a relatively long time.

Then, the solution is subjected to a solution treatment at 530 ° C., which is the final temperature rise temperature as in step S17. The solution treatment proceeds for about 4 hours and, as described above, creates a uniform solid solution by solution treatment.

Then, in step S18 to perform a water-cooling process for water-cooled the solution-ized forged product to produce a supersaturated solid solution, and in step S19 it is aged by maintaining the cooled forged product at 170 ℃ for 4 to 7 hours.

As described above, the conventional heat treatment method of aluminum hot forging uses a process of heating a hot material for hot forging, cooling the hot forging and trimmed forgings, and then heating the solution for solution treatment. The process of air-cooling and reheating takes a lot of time, and the energy consumption is relatively high because the cooled forging has to be reheated.

The problem to be solved by the present invention in consideration of the above problems is to provide a heat treatment method of aluminum hot forging that can shorten the process time, can reduce the amount of energy used.

The heat treatment method of the aluminum hot forging according to the present invention for solving the above problems, a) forging and trimming the heated material to produce a forging, and b) solution treatment can be performed in the state that the latent heat of the forging is left Heating to a temperature; c) subjecting the heated forged product to a solution; and d) water-cooling and aging the solution forged product.

In the heat treatment method of the aluminum hot forging according to the present invention, after the hot forging, the temperature of the forged product is raised to a solution treatment temperature without air cooling, thereby shortening the time required for the temperature increase to the solution treatment temperature after air cooling, thereby improving productivity. It is effective to let.

In addition, the heat treatment method of the aluminum hot forging of the present invention, by performing the solution treatment using the heat of the forging product has the effect of reducing the energy supplied to reduce the manufacturing cost, the cost of the forging product.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the heat treatment method of the present invention hot forging aluminum as described above will be described in detail.

Figure 3 is a flow chart of the aluminum forging process according to a preferred embodiment of the present invention, Figure 4 is a time and temperature graph of the aluminum forging process according to a preferred embodiment of the present invention.

3 and 4, the method for heat treatment of aluminum hot forging according to a preferred embodiment of the present invention, the step of heating the material (S31), and the step of hot forging the heated material to produce a forging (S32) ), Trimming the manufactured forged product (S33), heating the trimmed forged product to a solution treatment temperature (S34), and solution treatment for a predetermined time at the solution treatment temperature. It consists of a step (S35), the step of water cooling the solution-ized forged product (S36), and the step of aging the water-cooled forged product (S37).

Hereinafter, a heat treatment method and effects of aluminum hot forging according to a preferred embodiment of the present invention configured as described above will be described in more detail.

First, in step S31 is heated to 500 ~ 550 ℃ aluminum material for forging. At this time, the heating temperature is one embodiment and is heated to a suitable temperature for hot forging the aluminum material.

Next, in step S32, the forged product is manufactured by hot forging the heated material in a mold, and in step S33, the forged product is trimmed.

The time required for hot forging and trimming is about 30 seconds, and as the time passes, the temperature of the forged product is cooled to a predetermined temperature at 500 to 550 ° C., which is a heating temperature of the material.

At this time, the cooled temperature may be a temperature range that can be solutionized or a temperature slightly lower than the solutionable solution, which may be changed depending on the external temperature or the conditions of the hot forging equipment.

Next, in step S34, the temperature of the trimmed forged product is raised to 530 ° C., which is the solutionable temperature. When the temperature of the trimmed forged product is below the solutionable temperature, the temperature increase process may be performed. When the temperature of the trimmed forged product is the solutionable temperature, the temperature raising process may be omitted.

Conventionally, the trimmed forged product is cooled by air to 530 ° C., which is the solutionable temperature at room temperature, and thus, the time required for the elevated temperature is about 1.5 to 2.5 hours, and energy consumption is also relatively high.

However, in the present invention, by performing the solution in the state in which the latent heat of the forged product remains immediately after hot forging and trimming, it is possible to shorten the time for raising the temperature to the solutionable temperature and to reduce the energy supplied.

Therefore, the present invention improves productivity by shortening the process time, and it is possible to reduce the cost of the forging by reducing the cost.

Next, in step S35, the forged product, which is the solution temperature at which the temperature is elevated or not, is maintained at the solution temperature for 4 hours to perform solution solution.

The forged product trimmed in step S33 is transferred to a heat treatment furnace by a robot, and can simultaneously carry out the temperature increase of step S34 and the solution treatment of step S35 while passing through the conveyor of the heat treatment furnace, as will be described later. The solution-treated forged product is automatically added to the water to be cooled, and the process of being heated to 170 ° C. and aging is carried out in one system while transferring the water-cooled forged product.

Then, in step S36 is quenched by forging the solution forged for 4 hours by a water cooling method, and the quenched forged product is aged for 7 hours while being heated to 170 ℃ as in step S37.

The forged product obtained through such a treatment has the same physical characteristics as the conventional forged product, and it is possible to manufacture a forged product having the same physical properties in a shorter time.

1 is a process flowchart of a heat treatment method of a conventional aluminum hot forging.

FIG. 2 is a process graph describing temperature and time for each process step of FIG. 1.

3 is a flowchart of an aluminum forging process according to a preferred embodiment of the present invention.

4 is a process graph describing temperature and time for each process step of FIG. 1.

Claims (3)

a) forging and trimming the heated material to produce a forging; b) heating the solution to a solutionable temperature in a state in which latent heat of the forged product remains; c) solution treatment of the heated forging; And d) a method of heat treatment of aluminum hot forging comprising the step of water-cooling and aging the solution-treated forging. The method of claim 1, B), The heat treatment method of aluminum hot forging, characterized in that for raising the forged product remaining the latent heat to 530 ℃ which is the solutionable temperature. The method according to claim 1 or 2, The c) step is the heat treatment method of aluminum hot forging, characterized in that forging for 4 hours at the solutionable temperature of the forged product heated to the solutionable temperature.

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